Mono- and Difluorobutenedioic Acids -+ 1 I

S. RAASCH, RALPH E. MIEGEL AND JOHN E. CASTLE. RECEIVED DECEMBER 15, 1958. All four mono- and difluorobutenedioic acids, the anhydrides of the ...
0 downloads 0 Views 398KB Size
2678

MAYNARD S. RAASCH, RALPHE. MIEGELAND

[CONTRIBUTION No. 514 FROM

THE

JOHN

E. CASTLE

Vul. 81

CENTRAL RESEARCH DEPARTMENT, EXPERIMENTAL STATION, E. I. DU PONT DE NEMOURS AXD CO.]

Mono- and Difluorobutenedioic Acids BY MAYNARD S. RAASCH, RALPHE. MIEGELAND

E. CASTLE

JOHN

RECEIVED DECEMBER 15, 1958 All four mono- and difluorobutenedioic acids, the anhydrides of the cis forms, 2,2-difluorosuccinic acid, trifluorosuccinic the adacid and chlorotrifluorosuccinic acid have been synthesized starting with 1,1,2-trichloro-2,3,3-trifluorocyclobutane, duct of chlorotrifluoroethylene and vinylidene chloride.

Although maleic and fumaric acids are versatile chemicals, useful in copolymerizations and organic syntheses, their fluoro derivatives have not been reported except for a reference by Martius] to a test of fluorofumaric acid as an inhibitor of the tricarboxylic acid cycle. Martius said the compound was obtained from W. Theilacker, but the procedure for synthesizing i t seems not to have been published. The present paper describes the synthesis of all four mono- and difluorobutenedioic acids, and the anhydrides of the cis forms, from a single starting compound, and illustrates the synthetic possibilities of fluorocyclobutanes as intermediates. The starting material employed was 1,1,2-trichloro-2,3,3-trifluorocyclobutane,prepared by the thermal addition of chlorotrifluoroethylene and 1,l-dichloroethylene. This cyclobutane was transformed into the mono- and difluorobutenedioic acids, as well as the new fluoro acids, 2,2-difluorosuccinic acid, chlorotrifluorosuccinic acid and trifluorosuccinic acid, by the sequence of reactions shown in Chart I. FCCOOH

+ FCCOOH I!

1

fu~roacetylene.~Various derivatives of the fluorinated butenedioic acids and succinic acids are described in the Experimental section.

Experimental 1,1,2-Trichloro-2,3,3-trifluorocyclobutane .-A

1-liter, stainless-steel reactor was charged with 350 g. (3.6 moles) of vinylidene chloride, 1 g. of hydroquinone and 300 g. (2.6 moles) of chlorotrifluoroethylene and heated a t 180" for 10 hours. The product was filtered from polymer and distilled to give 266 g. (48% yield) of 1,1,2-trichloro-2,3,3trifluorocyclobutane, b.p. 120-121", %"D 1.4139. Anal. Calcd. for C1H2C13F3: C, 22.51; H , 0.95; C1, 49.85. Found: C, 22.61; H , 1.09; C1, 49.32. 1,4-Dichloro-3,3,4-trifluorocyclobutene.-To 555 g. (2.6 in 850 moles) of 1,1,2-trichloro-2,3,3-trifluorocyclobutane ml. of ether was added with stirring 400 ml. (2.9 moles) of triethylamine. After the mixture had stood for 20 hours, it was stirred with 1200 ml. of water and 75 ml. of hydrochloric acid. The ether layer was washed with water, dried and distilled t o give 400 g. (87% yield) of 1,4-dichloro-3,3,4trifluorocyclobutene, b.p. 91-92", nZ5D1.3942. Anal. Calcd. for CaHC12F3: C1, 40.07. Found: C1, 39.96. Chlorotrifluorosuccinic Acid.-To 4 liters of water, 153 g . (2.3 moles) of potassium hydroxide and 718 g. (4.6 moles) of potassium permanganate in a &liter, 3-necked

CHARTI k;OH CFnCOOH +- I 11 FCCOOH CHFCOOH

HOOCCF

CF2COOI-I KOH CHzCOOH

I1

HOOCCH

1

KMnOa

PZO6

FCCOOH

-+

P206

FCCO

CFzCOOH

CFn-CF

FCCO

I'CCO

CClIiCOOH

CH2-CC1

HCCO

FCCOOH 'I

FCCOOH

I

CF2-CFC1 I / CH=CCl

Use of a fluorocyclobutane to prepare a fluorinated succinic acid was first made by H e m e and Zimn~erschied,~ who synthesized tetrafluorosuccinic acid. 2,3-Dichloro-2,3-difluorosuccinicacid3 has been prepared similarly. Unlike dichloromaleic anhydride, difluoronialeic anhydride copolymerizes readily with styrene ; and unlike maleic anhydride, the copolymer is not restricted to a 1 : 1 ratio. Difluoromaleic anhydride is pyrolyzed to fluoropropiolyl fluoride4 a t 650 while monofluorornaleic anhydride is converted to (1) C. Martius, A n n . , 661, 231 (19iQ) (2) A. L. Henne and W. J . Zimmerschied, TEIS JOURNAL, 69, 281 t 1947). (3) R. N. Haszeldine and J , E. Osborne, J . Chem. SOL.,3880 (1955). (4) W. J Middleton. U.S. Patent 2,831,835 (April 22. 1958).

I

EtJ

1

I

I

CFn-CFC1

1

FCCOOH

flask was added with stirring 410 g. (2.3 moles) of 1,4-dichloro-3,3,4-trifluorocyclobutene a t 15-20' during 2.5 hours. After the mixture had been stirred for 10 hours longer a t 25O, it was filtered from manganese dioxide which was washed with water. The volume of the filtrate was reduced t o 1500 ml. and 295 ml. of concd. sulfuric acid was added. The solution was extracted with ether, the extract was dried briefly with magnesium sulfate, and the ether was evaporated off. The chlorotrifluorosuccinic acid thus obtained was taken up in methylene chloride. Part of the product crystallized out and was filtered off and washed with methylene chloride. By judiciously adding water t o the filtrate, more crystalline product was obtained. A total of 409 g. (85% yield) of very hygroscopic crystals was obtained. After being dried over phosphorus pentoxide, the compound melted a t 55'. Anal. Calcd. for C)4H2C1F304: C1, 17.17. Found: C1, 16.77. (5) W. J. Middleton, U. S. Patcnt 2,857,366 (October 21, 1958).

June 5, 1959

MONO-AND DIFLUOROBUTENEDIOIC ACIDS

A portion was converted to the dipotassium salt which was recrystallized from ethyl alcohol-water. Anal. Calcd. for C4ClFsK~04: C1, 12.54. Found: C1, 12.52. Chlorotrifluorosuccinic Anhydride.-Chlorotrifluorosuccinic acid (62 g., 0.3 mole) and 120 g. (0.84 mole) of phosphorus pentoxide were heated in a simple still to give 46 g. (81 yield) of chlorotrifluorosuccinic anhydride. This was distilled through a packed column a t 78'; nZ6D1.3661. Dimethyl and Diethyl Chlorotrifluorosuccinates .-A mixture of 35 g. of chlorotrifluorosuccinic anhydride, 50 ml. of methanol and 5 ml. of concd. sulfuric acid was refluxed for 16 hours. From it was obtained 27.5 g. (61% yield) of dimethyl chlorotrifluorosuccinate, b.p. 192-194', WUD 1.3908. The diethyl ester was made by azeotropic removal of water with benzene, using p-toluenesulfonic acid as catalyst; b.p. 70-74' (2-3 mm.), 219' (760 mm.); nZ6D 1.3945. Ch1orotrifluorosuccinamide.-Diethyl chlorotrifluorosuccinate (36 8.) was added dropwise to -135 ml. of concentrated, aqueous ammonia with stirring a t 0'. After 1.5 hours, 23 g. (83y0 yield) of chlorotrifluorosuccinamide was filtered off; m.p. 250" after recrystallization from water. Anal. Calcd. for C4H4ClF3N02: AT, 13.69. Found: K, 13.82. Chlorotrifluorosuccinimide .-Chlorotrifluorosuccinamide (40.9 g., 0.2 mole) and 20.6 g. (0.2 mole) of 95% sulfuric acid were heated a t 200" under 12 mm. pressure. The distillate (18.7 g.) was redistilled to give 14.6 g. (39y0 yield) of the imide, b.p. 48" (2 mm.), n% 1.4333. The imide was also made by heating 0.1 mole of the diamide with 0.3 mole of phosphorus pentoxide under reduced pressure. Anal. Calcd. for C4HF3ClN02: C, 25.63; H , 0.53; N, 7.46. Found: C, 25.72; H , 0.84; N, 7.48. Trifluorosuccinic Acid Dioxanate .--Zinc dust (121 g., 1.76 moles) was added in portions to a stirred solution of 332 g. (1.6 moles) of chlorotrifluorosuccinic acid in 700 ml. of dioxane. The temperature was kept a t 40-50" with cooling. After 3 hours a small amount of heat was still being given off, and the mixture was allowed to stir for 15 hours more. The thick mixture was decanted from unreacted zinc and most of the dioxane was removed under reduced pressure. The residue was dissolved in water and a solution of 103 ml. (1.85 moles) of concd. sulfuric acid in 200 ml. of water was added. The solution was extracted with ether and the extract was dried with magnesium sulfate. Evaporation of the ether left a crystalline residue. This was stirred with methylene chloride to give 236 g. (68% yield) of trifluorosuccinic acid associated with one-half mole of the dioxanate was of dioxane. An additional 40 g. (11 70) obtained by evaporating the filtrate, dissolving the residue in dioxane, and treating it with additional zinc. After recrystallizing the hygroscopic dioxanate from a mixture of ether and chloroform, it melted a t 95-96'. Anal. Calcd. for ( C ~ H ~ F ~ O ~ ) ~ . CC, ~ H33.35; S O ~ : H, 3.26; F,26.37. Found: C,33.18; H , 3.26; F,25.77. Tetrafluorosuccinic acid forms a 1:1 complex with dioxane.6 Trifluorosuccinic Acid.-To a solution of 63 g. (0.29 mole) of trifluorosuccinic acid dioxanate in 250 ml. of ether was added 55 ml. (0.60 mole) of aniline. The dianilinium salt (94 g., 90% yield) was filtered off and recrystallized from ethyl alcohol-water in 75% return; m.p. 181-186' dec. A solution of the salt in 100 ml. of water and 35 ml. of hydrochloric acid was extracted with ether. Evaporation of the dried ether solution left 31 g. of trifluorosuccinic acid which was recrystallized from trifluoroacetic acid-benzene to give 26 g. (83% return), m.p. 111-112". Anal. Calcd. for C4H3F304: C, 27.92; H, 1.76; F , 33.13. Found: C, 28.08; H , 1.90; F , 34.51. Trifluorosuccinic Anhydride .-Trifluorosuccinic acid was converted to its anhydride by heating with phosphorus pentoxide. The anhydride distilled a t 122-124'. Trifluorosuccinamide.-From 2.6 g. of diethyl trifluorosuccinate, b.p. 75-78' (2 mm.), and 22 ml. of cold, concentrated aqueous ammonia, after stirring for one hour, there was obtained 1.8 g. (78% yield) of trifluorosuccinamide, m.p. 195-197" from water. (6) K. E. Rapp, J. T. Barr, R. L. Pruett, C. T. Bahner, 1. D. Gibson and R. H. Lafferty, Jr., THISJOURNAL, 74, 752 (1952).

2679

Anal. Calcd. for C ~ H ~ F ~ O ~N, N Z16.48; : F, 33.54. Found: N, 16.91; F , 32.92. Trifluorosuccinanilic Acid.-Trifluorosuccinic anhydride was treated with a molar equivalent of aniline in ether and the product was atered off, washed with dilute hydrochloric acid and recrystallized from water. The anilide melted a t 111-113' and presumably has the structure HOOCCFzCHFCONHCeH6. Anal. Calcd. for CmHsF3N03: C, 48.58; H, 3.26; N, 5.67; F, 23.06. Found: C, 48.48; H, 3.49; N, 5.56; F, 23.43. Difluorofumaric Acid.-A mixture of 10 ml. of water, 2.4 g. (0.06 mole) of sodium hydroxide and 3.44 g. (0.02 mole) of pure trifluorosuccinic acid was heated on a steambath for 15 hours. The mixture was cooled and 8 ml. of sulfuric acid in 5 ml. of water was added. It is necessary to use a high concentration of acid, otherwise the difluorobutenedioic acids cannot be extracted easily. The solution was extracted with ether and the ether solution was decolorized with carbon, dried and evaporated to give 3.02 g. (99yq yield) of a mixture of difluorofumaric and difluoromaleic acids. Recrystallization of the mixed acids from 6 ml. of water gave 1.05 g. (34y0 yield) of difluorofumaric acid, m.p. 267'. After a second recrystallization it melted a t 268-270'. Anal. Calcd. for C4H~Ft04: C, 31.59; H, 1.33; F , 24.99. Found: C, 32.03; H , 1.61; F , 24.18. Trifluorosuccinic acid dioxanate may be used instead of the pure acid. Diethyl Difluoromaleate and Diethyl Difluorofumarate The dehydrofluorination mixture of difluoromaleic and difluorofumaric acids was esterified with ethyl alcohol to give diethyl difluoromaleate, b.p. 55-57' (1.1 mm.), z Z 6 ~ 1.4121, and diethyl difluorofumarate, b.p. 72-73' (1.1 mm.), n Z 51.4273. ~ Both infrared and nuclear magnetic resonance indicated that the higher boiling fraction is the fumarate and the other the maleate. I n contrast, diethyl maleate boils higher than diethyl fumarate. Difluor0fumaramide.-Concentrated aqueous ammonia (100 ml.) was added to 20.8 g. (0.1 mole) of diethyl difluorofumarate and the mixture was stirred for 24 hours. The crude, tan amide (12.6 g., 84yoyield) was dissolved in 2 1. of hot water, decolorized, and 7 g. of white, crystalline amide was recovered by cooling the solution. The compound darkened a t about 280' but did not melt. Anal. Calcd. for CnH4F2N202: C, 32.01; H, 2.67; F , 25.3; N, 18.66. Found: C, 32.24; H, 2.70; F, 25.42; N, 18.73. Difluoromaleic Anhydride.-Mixed difluoromaleic and difluorofumaric acids (75 g., 0.49 mole) and 75 g. (0.52 mole) of phosphorus pentoxide were heated in a simple still. The ditluoromaleic anhydride that came over was fractionated to give 58.5 g. (89% yield), b.p. 128', m.p. 20°, n% 1.4197. Anal. Calcd. for C4F203: C, 35.84; F, 28.36. Found: C, 35.63; F, 28.34. Difluoromaleic Acid.-Difluoromaleic anhydride was hydrolyzed with an equivalent of water to ditluoromaleic acid which was recrystallized from a mixture of acetone and benzene. The acid melted a t 219-220'. Anal. Calcd. for CrH2F2O4:C, 31.59; H , 1.33; F , 24.99. Found: C, 31.49; H , 1.68; F , 24.81. Difluoromaleamic Acid.-A solution of 8 g. of difluoromaleic anhydride in 270 ml. of benzene was saturated with ammonia gas. The gummy solid that formed was separated, dissolved in 70 ml. of water, and decolorized with activated carbon. Dropwise addition of concentrated hydrochloric acid gave 3.8 g. (42y0 yield) of difluoromaleamic acid as white needles, m.p. 183-185". Anal. Calcd. for C4H3F20aN: N, 9.27. Found: N, 9.33. N-Phenyldifluoromaleamic Acid.-Addition of 7.1 g. (0.076 mole) of aniline in 100 ml. of ether to a solution of 10.2 g. (0.076 mole) of difluoromaleic anhydride in 200 ml. of ether followed by cooling in ice gave 17.3 g. (92% yield) After of N-phenyldifluoromaleamic acid, m.p. 193-195'. recrystallization from chlorobenzene it melted a t 194196'. Anal. Calcd. for CloH7FzNOa: N, 6.16. Found: N, 6.17.

.-

L'CihO

LIAYNARD

s. KAASCH,

RALPH

E.

LfIEGEL AND JOHN

E. Casrrx

Vol. 81

N-(p-Chloropheny1)-difluoromaleamicacid was similarly ride, and distilled t o give 177 g. (Mycyield) of l-chloroprepared and recrystallized from chlorobenzene, m.p. 1842,3,3-trifluorocyclobutene,b.p. 51.5-52", ?225D 1.3614. 186". Anal. Calcd. for CaH2C1F3: C1, 24.88. Found: CI, A n d . Calcd. for C I O H ~ F Z S O ~S, C ~ 5.36; : F, 14.54. 24.50. Found: N, 5.51; F , 14.84. 2,Z-Difluorosuccinic Acid.'-In a flask fitted with stirrer, thermometer and dropping funnel, and cooled by an iceN-(a-Naphthyl)-difluoromaleamic acid melted a t 154- salt-bath were placed 4 1. of water, 160 g. (4.0 moles) of 155.5' after recrystallization from dioxane-petroleum sodium hydroxide and 316 g. (2.0 moles) of potassium perether. (214 g., manganate. l-Chloro-2,3,3-trifluorocyclobutene The reaction Wdi Anal. Calcd. for C14HgF2N03: C, 60.65; H , 3.25; S, 1.5 moles) was added slowly a t 15-20'. 6.06. Found: C, 60.54; H, 3.39; S , 5.07. complete in 3 hours. The manganese dioxide was filtered washed with water, and the filtrate was concentrated on N-Phenyldifluoromaleimide.--9 solution of 10 g. (0.044 off, a steam-bath. After addition of 170 ml. of concd. sulfuric mole) of N-phenyldifluoromaleamic acid in 200 ml. of hot acid, the filtrate was extracted with ether. After the ether chlorobenzene was stirred and heated with 10 g. (0.07 mole) solution had been dried with magnesium sulfate, it was of phosphorus pentoxide for 20 minutes. The reaction to give 182 g. (7970 yield) of 2,2-difluorosucmixture was filtered and the gummy solid was extracted cevaporated h i c acid. The product mas recrystallized from aceton-twice with chlorobenzene and then with boiling ether. benzene in 88% return (2 crops) and melted a t 154-155'. The combined organic solutions were extracted with sodium Anel. Calcd. for CaHaF204:C, 31.17; H , 2.62; F, 24.66. bicarbonate solution and then evaporated to give 4.2 g. Found: C,30.90; H, 2.80; F , 24.68. (46y0 yield) of N-phenyldifluoromaleimide, m.p. 88-89'. Recrystallization from petroleum ether did not alter thc Diethyl 2,Z-Difluorosuccinate .?--The acid was esterified with ethyl alcohol using sulfuric acid as catalyst. The ester melting point. Anal. Calcd. for C ~ o H 5 F z S O IX, : 6.69; F, 18.17. boiled a t 53-55' (1 mm.), 205-207" (749 mm.), n Z 5 D 1.3912. Anal. Calcd. for C ~ H I ~ F Z OC, ? : 45.71; H , z.76; I:, Found: N, 6.7.5; F , 17.90. 18.08. Found: C, 46.10; H , 5.86; F, 18.54. N-( p-Chloropheny1)-difluoroma1eimide.-By means of Acid.-To a solution of 97 g. (2.42 moles) the above procedure, this compound was obtained in 91 c/'o of Fluorofumaric sodium hydroxide in 300 ml. of water were added 100 g. yield as bright yellow needles, m.p. 74-76". of ice and 125 g. (0.81 mole) of 2,2-difluorosuccinic acid. Anal. Calcd. for CloH4ClF2SOz: K, 5.74; C1, 14.57. The solution was heated on a steam-bath for 16 hours, Found: N.5.83: C1, 13.92. cooled, and 100 ml. of mater and 205 ml. (2.44 moles) of 11 ,12~Difluoro~9,10~dihydro~9,10-ethanoanthanoan~hrace~~~ll,~ hydrochloric acid were added. The solution was extracted 12-dicarboxylic Anhydride.-Difluoromaleic anhydride (2.68 with ether and the fluorofumaric acid obtained by evaporatthe dried ether solution was recrystallized from acetoneg , , o.02 mole) and 3,56 g. (o.02 mole) of anthracene were ing benzene t o give 83.5 g. (77% yield) in 3 crops, m.p. 236heated together for 10 minutes in a bath at 1750. The 237". the mother liquors 4 more grams of fluoroproduct was recrystallized from 1,1,2,2-tetrachloroethane fumaricFrom acid plus g. of sirup was obtained. Thus, little to give 5.2 g. (83%; yield) of the Diels-Alder adduct, m.p. c>c,n '>+)1,0

LLY-LO1J

.

-4nal. Calcd. for Cl8HI~FzO3:C, 69.22; H , 3.23; F, Found: C, 69.05; H,3.17; F, 11.76. Difluoromaleic Anhydride-Styrene Copolymer.--8 solution of 6.7 g. (0.05 mole) of difluoromaleic anhydride, 5.2 g. (0.05 mole) of styrene and 0.05 g. of benzoyl peroxide in 30 nil. of xylene was heated under nitrogen a t 100" for 16 hours. The polymer was isolated by pouring the solution into 400 mi. of petroleum ether and filtering; yield 4.6 g. The polymer was completely soluble in sodium hydroxide solution and softened a t 178-183". The inherent viscosity o f a 0.5ycsolution in dimethylformarnide a t 25' was 0.37. Anal. Found: F , 10.04. This corresponds t o a styrene/ difluoromaleic anhydride molar ratio of 2.3/1. l-Chloro-Z,3,3-trifluorocyclobutene.-In a flask fitted with an efficient reflux condenser, sealed stirrer, and dropping funnel were placed 150 g. (2.2 moles) of 95V0 zinc dust and 300 ml. of absolute ethyl alcohol. To the refluxing mixture was added sloivly 400 g. (1.87 moles) of 1,1,2-trichloro-2,3,3-trifluorocyclobutane and heating was continued for two hours. T h e mixture was cooled, diluted to 2 1. with water, and 10 ml. of hydrochloric acid was added. The organic layer was separated, dried over calcium chlo12.17.

or no fluoromalelc acid is formed in the reaction. Anal. Calcd. for C4HaFOa: C, 35.83; H, 2.26; F, 14.17. Found: C, 36.40; H, 2.40; F, 14.04. Fluoromaleic Anhydride .--Seventy grams (0.42 mole) of fluorofumaric acid and 45 g. (0.32 mole) of phosphorus pentoxide were heated in a simple still. The anhydride which came over (51.5 g.) was redistilled through a column to give 46 g. (76y0yield) of fluoromaleic anhydride, b.p. 162O, Xz5D 1.4452. Anal. Calcd. for CaHF03: C , 41.37; H, 0.87; F, 16.37. Found: C,41.39; H,0.90; F, 16.32. Fluoromaleic Acid.-Twenty-five grams (0.216 mole) of fluoromaleic anhydride and 3.9 ml. (0.216 mole) of water were mixed in a beaker. The fluoromaleic acid was recrystallized from acetone-benzene t o give 22.6 g. (78% yield2 in 3 crops, m.p. 128-129" in a capillary tube and 132-133 on a Fisher- Johns apparatus. Anel. Calcd. for CaHaF04: C, 35.83; H, 2.26; I:, 14.17. Found: C,36.25; H , 2.43; F, 14.40. ~VILMIKGTON, DEL. ( 7 ) AI. S.Raasch, U. S. i'atcut 2,824,888 (February 23, 1!138).